Constraints:
- Cost: The air filter must be cost-effective for the factory to install and maintain.
- Space: The size of the air filter must be practical for the factory's space limitations.
- Efficiency: The air filter must effectively reduce the amount of air pollution being released into the air.
- Durability: The air filter must be durable and able to withstand the conditions of the factory environment.
Criteria for successfulness:
- Reduction in air pollution: The air filter must successfully reduce the amount of air pollution being emitted by the factory.
- Cost-effectiveness: The air filter must be cost-effective for the factory to install and maintain.
- Energy efficiency: The air filter must be energy efficient and not consume excessive amounts of electricity.
- Durability: The air filter must be durable and have a long lifespan.
- Ease of maintenance: The air filter must be easy to clean and maintain to ensure optimal performance.
Imagine you are an engineer, and you are trying to design an air filter that will successfully reduce the amount of air pollution being released into the air by a factory. You need to consider constraints that will limit your design as well as a criteria that will be used to judge the successfulness of your design
1 answer
5 answers